CORRELATIONS AND PREDICTION EQUATIONS FOR FATTY ACIDS AND SENSORY CHARACTERISTICS OF BEEF LONGISSIMUS RIB STEAKS FROM FORAGE-FED CATTLE AND RETAIL USDA CHOICE AND SELECT RIB STEAKS

Journal of Muscle Foods Pub Date : 2008-12-29 DOI:10.1111/j.1745-4573.2008.00129.x

R.T. BAUBLITS, F.W. POHLMAN, A.H. BROWN JR, Z.B. JOHNSON, D.C. RULE, D.O. ONKS, C.M. MURRIETA, C.J. RICHARDS, B.A. SANDELIN, H.D. LOVEDAY, R.B. PUGH

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引用次数: 19

Abstract

ABSTRACT

Rib steaks (n = 52) from forage-fed cattle and United States Department of Agriculture Choice and Select rib steaks obtained from area supermarkets were utilized to determine correlations between fatty acids and sensory characteristics, to develop prediction models for sensory characteristics, and to determine correlations among fatty acids. The beef/brothy and beef fat sensory characteristics were positively correlated (P < 0.05) with 16:0, 16:1cis-9 and 18:1, and negatively correlated (P < 0.05) with 15:0, α-18:3, 20:4, 20:5, 22:5 and 22:6. The grassy sensory characteristic was positively correlated (P < 0.05) with 15:0, 16:1trans-9, 18:0, 18:2cis-9,trans-11 (conjugated linoleic acid [CLA]), α-18:3, 20:5, 22:5 and 22:6. Regression utilizing stepwise selection to develop prediction equations for sensory characteristics indicated that the beef/brothy sensory characteristic was best predicted (P < 0.05) by the single fatty acid 20:5, with this fatty acid explaining 40% of the variation. CLA and α-18:3 were utilized in the model that best predicted (P < 0.05) milky/oily flavor, with these two fatty acids explaining 31% of the variation. These results indicate that CLA and the 20- and 22-carbon polyunsaturates have large roles in influencing flavor, causing increases in grassy and milky/oily flavor or decreasing beef/brothy flavor.

PRACTICAL APPLICATIONS

With the increase in concentrate feed costs, it has become more important to finish cattle on alternate feedstuffs, particularly forage. However, shifting cattle from concentrate to forage finishing diets may impart different sensory attributes of the beef produced. Therefore, it would be advantageous to be able to predict palatability characteristics such as beef flavor in order to correctly segregate beef into markets that seek and accept different sensory attributes. Results from this study would allow beef to be identified from its fatty acid profile as forage finished or grain finished in sensory characteristics and therefore targeted to the appropriate markets. Furthermore, with these results, it may be possible to produce and correctly classify beef from forage-finished diets that may exhibit affinities to deposition of fatty acids more closely associated with grain-finished beef, and therefore fit into those markets.

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来自饲料饲养牛和零售美国农业部选择和选择肋排的牛肉最长肌肋排的脂肪酸和感官特性的相关性和预测方程

摘要利用52块草食牛肋排和美国农业部精选肋排，研究了脂肪酸与感官特性的相关性，建立了感官特性的预测模型，并确定了脂肪酸之间的相关性。牛肉肉汤和牛肉脂肪感官特征与16:0、16:1 -9和18:1呈正相关(P < 0.05)，与15:0、α-18:3、20:4、20:5、22:5和22:6呈负相关(P < 0.05)。草地感官性状与15:0、16:1反式9、18:0、18:2 - is-9、反式11(共轭亚油酸[CLA])、α-18:3、20:5、22:5、22:6呈正相关(P < 0.05)。利用逐步选择建立感官特性预测方程的回归表明，单一脂肪酸对牛肉/肉汤感官特性的预测效果最好(P < 0.05)，其比例为20:5，该脂肪酸解释了40%的变异。CLA和α-18:3在模型中最能预测乳白色/油性风味(P < 0.05)，这两种脂肪酸解释了31%的变异。这些结果表明，CLA和20-碳和22-碳多不饱和物对风味的影响较大，导致草味和乳/油味增加，牛肉/肉汤味减少。随着精料饲料成本的提高，用替代饲料，特别是草料饲喂育肥牛变得越来越重要。然而，将牛从精料日粮转变为牧草肥育日粮可能会赋予所产牛肉不同的感官属性。因此，能够预测牛肉风味等适口性特征，以便正确地将牛肉划分为寻求和接受不同感官属性的市场，将是有利的。这项研究的结果将使牛肉能够从其脂肪酸谱中确定为饲料成品或谷物成品的感官特征，从而针对适当的市场。此外，有了这些结果，就有可能生产和正确区分与谷物成品牛肉更密切相关的脂肪酸沉积有亲缘关系的饲料成品牛肉，因此适合这些市场。

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Journal of Muscle Foods 工程技术-食品科技

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